Method and device for protecting the human body from footstrike shock

ABSTRACT

A shock-absorbing sock is shown and described. In one embodiment, the sock is a shock-absorbing athletic sock generally conforming to the shape of a human foot that includes a heel portion, a mid-foot portion and a shock absorbing assembly. The shock absorbing assembly may include a cavity assembly and a shock absorbing material. In other embodiments, the sock may include a slip-avoidance system.

This application is a Divisional of U.S. application Ser. No.13/699,865, filed Feb. 26, 2013, and is based on and claims priority toPCT/US2011/38074, filed May 26, 2011, which further claims priority toU.S. Provisional Patent Application No. 61/348,317, filed May 26, 2010,the teachings of which are all incorporated herein by this reference intheir entireties.

FIELD OF THE TECHNOLOGY

The present disclosure relates generally to socks, and more particularlyto socks to dampen foot strike shock on a human foot.

BACKGROUND

The strike of the foot to a variety of surfaces creates a shock whichcan damage a person's body. Such damage may occur in many parts of thebody, for example the feet, which have many bones and many jointedsurfaces, and in the knees and the spinal cord. During repetitive and/orhigh impact athletic activity, the beating and shock may cause stressfractures in the feet, leg and other areas. Similarly, the shocks cancause changes in the structure of the vertebrae.

In young athletes, such as gymnasts, repetitive and high impact activitycan also lead to growth plate damage and unintended changes. Forillustrative purposes only, gymnasts that perform balance beam exercisesare required to land repeatedly on the beam surface, typically withlittle, or no, protective foot covering to absorb foot strike shock.Even though current beam surfaces are typically sprung and made ofleather or suede, repeated landing on that surface wears at thegymnast's body.

Therefore, an improved athletic sock and method of using thereof forshock absorption may be advantageous, particularly when used bygymnasts. However, embodiments of the sock may provide improved shockabsorption for all wearers, including a variety of athletes andnon-athletes alike. For instance, in some sports, such as running, thereare devices available to help alleviate the reoccurrence of foot strikeshock; however, such conventional approaches are often inadequate, oreven ineffective. For example, conventional approaches are often bulkyand disadvantageous for athletes, particular those athletes trendingtowards more minimalistic footwear.

Therefore, the Applicants herein describe embodiments, and methods ofusing those embodiments, for shock absorption that can be donned in manyathletic endeavors, such as gymnastics and running, which may benefitfrom minimal foot coverings and support, yet impose repetitive or highimpact shock on the athletes' feet.

SUMMARY

In accordance with the present disclosure, a shock-absorbing sock isprovided to absorb foot strike shock to prevent and rehabilitate humaninjury. This disclosure provides an improved sock that is convenient,efficient, and safe for the user, particularly when used during athleticactivity and/or during rehabilitation. This disclosure may allow forhalf-foot socks, ankle with closed forefoot socks, ankle with openforefoot socks, three-quarter foot socks, calf socks, legging socks, andcombination thereof. This disclosure may also provide an improved methodof preventing foot strike shock by donning a shock-absorbing sock,particularly during athletic activity and/or rehabilitation.

In one embodiment, a shock-absorbing athletic sock includes a heelportion, a mid-foot portion and a shock absorbing assembly. The shockabsorbing assembly may include a cavity assembly and a shock absorbingmaterial generally secured in the cavity. In particular examples, aninner wall and an outer wall may define the cavity. The inner wall andthe outer wall may be stitched together. In particular examples, thestitching may be elastic stitching that is generally adapted to allowflexibility and movement of the inner wall and outer wall about oneanother.

The cavity may wick moisture away from a user's foot, particularlyduring athletic activity. The sock may further include at least onelayer that is adjacent to the cavity. The layer may be a wicking layer,a protective layer and an adhesive layer. The cavity may have sufficientmemory to hold the cavity in place, particularly when being donnedduring athletic activity.

In some examples, the shock absorbing material may be gel, for instancea visco-elastic polymeric gel. In particular examples, the shockabsorbing material may be a Sorbothane gel. The shock absorbing materialmay be adapted to flow and absorb shock under a load. The shockabsorbing material may be adapted to mimic an elasticity of human flesh.The shock absorbing material may absorb greater than about 94 percent,for example 94.7 percent, of impact shock. Further, the shock absorbingassembly may cushion a human foot from foot-strike shock while themid-foot portion allows tactility in the ball area and toes.

In another embodiment, a shock-absorbing athletic sock may have a shapegenerally conforming to the shape of a human foot and include a heelportion, a mid-foot portion and a shock absorbing assembly. The shockabsorbing assembly may include a cavity assembly and a shock absorbingmaterial.

In some examples, the sock may include a slip-avoidance system. Theslip-avoidance system may include a plurality of grooves. Theslip-avoidance system may also include a stick pad.

Typically, the sock is adapted to be donned without a shoe. Inparticular examples, the heel portion includes a cuff that is generallyadapted to prevent slippage of the sock from a human foot. Further, thesaid mid-foot portion may include a cuff that is generally adapted toprevent slippage from the mid-foot.

In other embodiments, a shock-absorbing athletic sock has a shape thatis generally conforming to the shape of the human foot. The sock mayinclude a heel portion, a mid-foot portion, a shock absorbing assemblyand a slip-avoidance system.

The shock absorbing assembly may include a cavity assembly and a shockabsorbing material.

In yet other embodiments, a shock-absorbing athletic sock having a shapegenerally conforming to the shape of a human foot includes a mid-footportion, a heel portion and an ankle cuff on the proximate end of thesock. The mid-foot portion may expose a ball area and toes of the foot.Further, the mid-foot portion may include a mid-foot cuff on the distalend of the sock that is adapted to prevent slippage from the mid-foot.The heel portion may include a visco-elastic polymeric shock-absorbinggel heel portion. The ankle cuff on the proximate end of the sock may beadapted to prevent slippage from the human foot.

Further, the shock absorbing material may cushion the human foot fromfoot-strike shock, while the mid-foot portion may allows tactility inthe ball area and toes. In other examples, the shock absorbing materialmay include slip avoidance grooves. For instance, the slip avoidancegrooves in the mid-foot portion, and/or heel portion, may cushion thehuman foot from foot-strike shock while allowing the mid-foot portionand heel portion to flex.

Particular injuries associated with foot strike shock, and similarrepetitive impact, and other injuries include stress factures, growthplate deformities, knee injuries, Achilles tendonitis, shin splints,heel pain and fractures, planter fasciitis, hip injuries, disccompression, muscular spasms, ankle injuries, sciatica, injuriesincurred by overuse (including overuse injuries to the lower back, hips,knees, ankles, feet), tarsal, neuromas of the feet and the like.Embodiments of the socks herein will aid in the absorption of shock andimpact to reduce, and even prevent, many of the above injuries. Inparticular applications, reducing shock and impact will enhanceperformance with minimizing, or even eliminating, down time.

The above summary was intended to summarize certain embodiments of thepresent disclosure. Embodiments will be set forth in more detail in thefigures and description of embodiments below. It will be apparent,however, that the description of embodiments is not intended to limitthe present inventions, the scope of which should be properly determinedby the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the disclosure will be better understood by a reading ofthe Description of Embodiments along with a review of the drawings, inwhich:

FIG. 1 is a side view of a half-foot sock embodiment with cuffs at theankle and mid-foot and placement of shock absorbing material, shown inthe dotted line, in a heel portion;

FIG. 2 is a cross-section of the half-foot sock of FIG. 1;

FIG. 3 is a bottom view of the half-foot sock of FIGS. 1 and 2;

FIG. 4 is a top-view of a shock absorbing material prior to installationwithin the footwear with adhesive covering intact;

FIG. 5 is a top-view of a shock absorbing material prior to installationwithin the footwear with adhesive covering partially removed;

FIG. 6 is a cross-section of FIG. 5 showing various layers of a shockabsorbing material including a moisture wicking layer;

FIG. 7 is a side-view of an ankle-with-open-forefoot sock embodimentwith separate shock absorbing material in the heel portion and forefootportion;

FIG. 8 is a bottom view of the FIG. 7 ankle-with-open-forefoot sockembodiment;

FIG. 9 is a side-view of the ankle-with-open-forefoot sock embodiment ofFIG. 7 with shock absorbing material running from heel to forefoot;

FIG. 10 is a bottom view of the ankle-with-open-forefoot sock embodimentof FIG. 9;

FIG. 11 is a side view of a three-quarter foot sock embodiment withshock absorption running from heel to the ball portion of the forefoot;

FIG. 12 is a bottom view of the FIG. 11 three-quarter foot sockembodiment;

FIG. 13 is a side view of a calf sock embodiment with elongated upperankle/calf portion;

FIG. 14 is a cross-section of the calf sock embodiment of FIG. 13showing layers, including a wicking layer;

FIG. 15 is a bottom view of the calf sock embodiment of FIG. 13 showingstitching and shock absorbing material within the sock;

FIG. 16 is a perspective view of the full foot sock shock absorbingmaterial with wicking portion separated from shock absorbing portion ofthe calf sock embodiment of FIG. 13; and

FIG. 17 is a side view of an elongated legging sock embodiment withelongated upper ankle/calf portion.

DESCRIPTION OF EMBODIMENTS

In the following description, like reference characters designate likeor corresponding parts throughout the several views. Also in thefollowing description, it is to be understood that such terms as“forward,” “rearward,” “left,” “right,” “upwardly,” “downwardly,” andthe like are words of convenience and are not to be construed aslimiting terms.

Referring now to the drawings in general and FIGS. 1, 7, 9, 11 and 13 inparticular, it will be understood that the illustrations are for thepurpose of describing embodiments of the disclosure and are not intendedto limit the disclosure or any inventions thereto. As shown in thesefigures, the foot-strike shock socks are generally configured to protectand/or rehabilitate a wearer from bodily injury, particularly duringathletic activity. For instance, the socks may help absorb shock andprotect a users' heel section, ball area, i.e. the portion of the soleof the foot between the toes and the arch, and a combination thereofwhen the weight of the body strikes or moves on a surface, while wickingaway moisture. However, it is within the sprit of this disclosure forfoot-strike shock sock embodiments to be used in other non-athleticsituations, for example where risk of bodily injury is apparent orduring other bodily rehabilitation.

Embodiments of the socks include a variety of covering for the humanfoot, for instance a covering for the whole foot or a covering for onlya portion of the foot. For example, embodiments of the sock may includea covering for the foot that reaches below the ankle, while otherembodiments include a covering that reaches between the ankle and thefoot. Further, in some embodiments, the socks may be donned withoutadditional foot covering, i.e. without shoes or the like, as discussedherein. However, other embodiments of the socks may be worn withadditional foot coverings, such as shoes, cleats, skates, rehabilitationcoverings and other athletic footwear.

FIG. 1 illustrates half-foot sock 1, which is representative of oneembodiment of a foot-strike shock sock discussed herein. In thisexample, half-foot sock 1 has a shape generally conforming to the shapeof the human foot and includes heel shock absorbing assembly 10.Half-foot sock is generally secured to the human foot with ankle cuff 4and mid-foot cuff 5. Typically, as shown in FIG. 11, heel shockabsorbing assembly may include a cavity assembly, heel shock absorbingmaterial 2 and a plurality of slip avoidance grooves 9 to providetactility and wick away moisture from the human foot.

As shown in FIGS. 1 and 2, the cavity assembly may be defined by aninner wall 15 and an outer wall 16. Inner wall 15 and outer wall 16 maybe stitched together, and in particular examples, inner wall 15 andouter wall 16 may be stitched together with elastic stitching to allowflexibility and movement of inner wall 15 about and outer wall 16. Innerwall 15 and outer wall 16 may also be constructed of a variety ofdonning apparel materials that provide sufficient compression to retainthe sock during activity, while maintaining tactility and wicking awaymoisture. In examples hereinafter, the inner wall and the outer wall mayinclude a composition of nylon, cotton and lycra. In a specific example,the composition includes about fifty-one percent nylon, aboutforty-seven percent cotton-elastic and about two percent lycra. Otherexamples include a variety of compositions that provide compressibilityand tactility, while wicking moisture away from the human foot.

Typically, inner wall 15 and outer wall 16 have a shape generallyconforming to the shape of the human foot. Throughout the variousexamples of socks herein, each inner wall and outer wall may be singlelayered or double layered, and can be composed of a variety combinationsto match a specific intended usage. However, many of such embodimentsare generally stretchable and, therefore, typically hug tightly to thefoot when donned.

Further, the cavity assembly may include a variety of additional layersfor enhanced performance of the sock, particularly during athleticactivity. For instance, the sock may include a wicking material layer19, an adhesive layer 18, an additional protective material layer and acombination thereof.

In examples herein, wicking material layer 19 may draw moisture from thehuman foot away from sock 10 or to outer layers. Wicking layer 19 may bea synthetic material, such as a microfiber and polyester based fabric totransfer moisture. For instance, the capillary action of wicking layer19 may move moisture away from the skin into nonabsorbent materials withgreater surface area for improved evaporation. The wicking layer 19 maytherefore improve tactility and performance of the sock, while improvingthe wearer's comfort. Further, other embodiments may includeanti-bacterial agents to help reduce odors and extend the sock's productlife.

In other examples herein, adhesive layer 18 may help bond the multiplelayers of the sock. In yet other examples, an additional protectivematerial layer is positioned in one or all ground touching portions ofthe sole portion of the sock. In such examples, the protective materiallayer may be positioned on the sole portion which typically contacts afloor, beam or the like surface during upright standing and/or duringtraditional athletic activity, for instance such as running orgymnastics. The protective layer may be a layer of leather, such as athin layer of leather similar to the bottom of ballet shoes. Such a thinlayer of leather may be particularly advantageous in embodiments thatcan be used for running and other outdoor repetitive activities,particular those activities that often subject the outer wall of thesock to tearing and wearing away.

The heel shock absorbing material 2 is representative of one embodimentof absorbing materials discussed herein. Generally, the shock absorbingmaterials may vary from example to example and embodiment to embodiment.Shock absorbing material may be positioned adjacent to the inner wall ina variety of positions and can be attached directly to the inner wallsuch as by gluing, stitching or the like. Typically, shock absorbingmaterial acts to dampen, or eliminate, shock generated during activitycausing foot strike concerns. Shock absorbing material may be chosenfrom a variety of materials or constructions. For example, shockabsorbing material may include a gel, and in particular a visco-elasticgel.

Typically, the shock absorbing material may compress in stages subjectto different controlling pressure factors. For instance, the shockabsorbing material may compress in a first phase during which the shockabsorbing material is distorted when the user puts weight on a definedpoint during athletic movement, e.g. a gymnastic movement or the like,until the shock absorbing material distorts to a s second phase during aconstant pressure, e.g. the user balancing weight in a normal standingposition. The first phase compression of the shock absorbing materialmay depend on various factors. For instance, the size of the shockabsorbing material will tend to impact the load bearing and loadredirection.

The shock absorbing material of any of the embodiments herein maycomprise of SORBOTHANE (SORBOTHANE is a registered trademark ofSorobthane, Inc. Kent, Ohio) visco-elastic gel. SORBOTHANE is ahighly-damped, visco-elastic polymer. Typically, the visco-elasticmaterial combines the properties of a viscrose liquid and an elasticsolid. In particular examples, the shock absorbing material includesliquid-solid properties that flow, similar to a liquid, under apredetermined load. Simultaneously, SORBOTHANE shock absorbing materialabsorbs shock and vibration energy. The shock absorbing materialpartially collapses under compressive pressure and rebounds when thecompressive pressure is removed.

Other embodiments of shock absorbing material include materials withsimilar visco-elastic properties to SORBOTHANE. As illustrated in 1, 7,9, 11 and 13, the placement and size of the shock absorbing material inproportion to the surface area of sock between the human foot and asurface on which the weight of the body rests vary from embodiment toembodiment, depending on the use. In some embodiments, shock absorbingmaterial may be located on specific placements along the foot, whileother embodiments include shock absorbing material spanning up to thewhole foot bottom. Typically, the shock absorbing material protects andcushions any of the heel, ball and/or inner portions of the arch of theuser's foot, thereby reducing the shock normally imparted to the heel,ball and inner portions of the arch of the foot so that normalarticulation of the bones in the feet takes place when the wearer isconducting physical activity, and gymnastics in general. Therefore,certain embodiments herein need not necessarily conform to the wholebottom of the foot, insofar as the whole bottom area of the foot may notbenefit from shock protection during specific applications.

Returning to FIG. 1, half-foot sock 1 includes heel shock absorbingmaterial 2 that is positioned within the cavity of heel shock absorbingassembly 10. In this example, heel shock absorbing material 2 is securedwithin the cavity defined by inner wall 15 and outer wall 16. In thisparticular embodiment, shock absorbing material is provided only in theheel area of half-foot sock 1. Here, forefoot 11, including ball of foot12 and toes 13, are shown exposed with shock absorbing material 2secured in the heel 10 area. This embodiment is particularlyadvantageous for athletes, including gymnasts, which may benefit fromhaving the ball area free of additional material to allow maximumtactility in the ball and toe areas, while still absorbing harmful heelshock and wicking moisture away from the human foot.

Other embodiments of the half-foot sock 1 include an elongated forefootarea, where shock absorbing material is secured in the ball area of thesock. In these embodiments, the shock absorbing material may be securedwithin a cavity assembly in the forefoot having a similar inner wall andouter wall as seen in the heel cavity assembly described above.

Shock absorbing material 2 may also include slip-avoidance grooves 9, asindicated in FIGS. 1 and 2. Typically, slip-avoidance grooves 9 formedin the shock absorbing material provide for flexibility, for example tominimize, or prevent, slippage against inner wall 15. Slip-avoidancegrooves 9 also maintain a specific compression across the face of shockabsorbing material 2 during the change in load phases discussed above,for instance during load-bearing movements of athletics. Slip-avoidancegrooves 9 may also encourage the passage of air through predeterminedchannels to enhance user comfort. Further, slip-avoidance grooves 9 maychannel and wick moisture away from the human foot.

As illustrated in FIG. 1, half-foot sock 1 further includes an anklecuff 4 on its distal end that is adapted to prevent slippage of the sockfrom the human foot. Ankle cuff 4 may include a fastener to furthersecure half-foot sock 1 to a human foot, particularly during athleticactivity. Similarly, half-foot sock 1 includes a mid-foot cuff 5 on itsproximate end that is adapted to prevent slippage from a user'smid-foot. The mid-foot cuff 5 may also include a fastener to furthersecure half-foot sock 1 to a user's forefoot, particularly duringathletic activity.

FIG. 2 shows optional wicking layer 6 secured above inner wall 15 toadditionally draw moisture from the human foot away toward the outerlayers, i.e. heel shock absorbing material 10 and/or outer wall 16. Asindicated above, wicking layer 6 may therefore improve tactility andperformance of the sock, while improving the wearer's comfort.

FIG. 3 illustrates one example of the half-foot sock 1, whereinstitching 7 secures shock absorbing material 2 to the cavity assembly.Further, stitching 7 may secure inner wall 15 and outer wall 16. Inother examples, a stick pad 8 may assist securing shock absorbingmaterial 2 in place to provide enhanced adhesion to inner wall of sock15. FIG. 4 shows one embodiment of heel shock absorbing material 10prior to installation within the cavity assembly, with the adhesivecovering of stick pad 8 intact. FIG. 5 illustrates shock absorbingmaterial 10 prior to installation within the cavity assembly, but withthe adhesive covering of stick pad 8 partially removed.

FIG. 6 is an isolated view of the various elements of shock absorbingassembly 10, including slip-avoidance grooves 9 and optional wickinglayer 6.

FIGS. 7-8 show another embodiment of the sock: anankle-with-closed-forefoot sock 20. In this particular example,ankle-with-closed-forefoot sock 20 includes a closed forefoot 23. Asindicated in FIG. 7, ankle-with-closed-forefoot sock 20 includes bothball-of-foot shock absorbing assembly 21 and heel shock absorbingassembly 10, both positioned within their corresponding cavities. Asexplained above, the corresponding cavity assemblies may be defined byan inner wall and an outer wall. The ball-of-foot shock absorbingassembly 21 and heel shock absorbing assembly 10 may includeslip-avoidance grooves 9.

Ankle-with-closed-forefoot sock 20 further includes ankle cuff 4 on itsdistal end that is adapted to prevent slippage of the sock from thehuman foot. Ankle cuff 4 may include a fastener to further securehalf-foot sock 1 to a human foot, particularly during athletic activity.Optionally, ankle-with-closed-forefoot sock 20 may include a wickinglayer that is secured above the inner wall of the cavities toadditionally draw moisture from the human foot away from sock 20 to theouter layers.

FIG. 8 shows one example of the ankle-with-closed-forefoot sock 20,wherein stitching 7 secures shock absorbing material 22 withinball-of-foot shock absorbing assembly 21 and heel shock absorbingassembly 10. Further, a stick pad 8 may be secured within ball-of-footshock absorbing assembly 21 and within heel shock absorbing assembly 10,to assist in securing forefoot shock absorbing material 22 and heelshock absorbing material 2 in place to provide enhanced adhesion to therespective inner walls.

FIGS. 9-10 show yet another embodiment of the sock: anankle-with-open-toe sock 30. In this particular example,ankle-with-open-toe sock 30 includes an open toe 24 for enhancedtactility, particularly during athletic activity. As indicated in FIG.9, ankle-with-open-toe sock 30 includes a heel-to-toe foot shockabsorbing assembly 32 within a cavity running from about the heel toabout the toe. The cavity may be defined by an inner wall and an outerwall. The heel-to-toe foot shock absorbing assembly 32 may includeheel-to-toe foot shock absorbing material 31. The heel-to-toe foot shockabsorbing material 31 may include slip-avoidance grooves 9.

Ankle-with-open-toe sock 30 further includes ankle cuff 4 on its distalend that is adapted to prevent slippage of the sock from the human foot.Ankle cuff 4 may include a fastener to further secureankle-with-open-toe sock 30 to a human foot, particularly duringathletic activity. Optionally, ankle-with-open-toe sock 30 may include awicking layer that is secured above the inner wall of the cavities toadditionally draw moisture from the human foot and toward outer layers.

FIG. 10 shows one example of the ankle-with-open-toe sock 30, whereinstitching 7 secures heel-to-toe foot shock absorbing material 31 withinheel-to-toe foot shock absorbing assembly 32. Further, a stick pad 8 maybe secured heel-to-toe foot shock absorbing assembly 32 to assist insecuring heel-to-toe foot shock absorbing material 31 within itsrespective cavity, particularly against its inner walls.

FIGS. 11-12 show another embodiment of the sock: three-quarter foot sock40. In this particular example, three-quarter foot sock 40 includes anopen toe 24 and partial open forefoot for enhanced tactility,particularly during athletic activity. As indicated in FIG. 11,three-quarter foot sock 40 includes a three-quarter foot shock absorbingassembly 42 within a three-quarter foot cavity assembly running fromabout the heel to about the forefoot. The cavity may be defined by aninner wall and an outer wall. The three-quarter foot shock absorbingassembly 42 may include three-quarter foot shock absorbing material 41.The three-quarter shock absorbing material 41 may include slip-avoidancegrooves 9.

Three-quarter foot sock 40 further includes ankle cuff 4 on its distalend that is adapted to prevent slippage of the sock from the human foot.Ankle cuff 4 may include a fastener to further secure three-quarter footsock 40 to a human foot, particularly during athletic activity.Similarly, three-quarter foot sock 40 includes three-quarter foot cuff25 on its proximate end that is adapted to prevent slippage from auser's mid-foot. The three-quarter foot cuff 25 may also include afastener to further secure three-quarter foot sock 40 to a user'sforefoot, particularly during athletic activity.

Optionally, three-quarter foot sock 40 may include a wicking layer thatis secured above the inner wall to additionally draw moisture from thehuman foot toward outer layers.

FIG. 12 shows one example of the three-quarter foot sock 40, whereinstitching 7 secures three-quarter foot shock absorbing material 41 tothree-quarter foot sock 40. Further, a stick pad 8 may be secured tothree-quarter foot shock absorbing assembly 42 to assist in securingthree-quarter foot shock absorbing material 41 to its respective cavity,particularly against its inner walls.

FIGS. 13-17 show a further embodiment of the sock: calf sock 50. Asshown in FIG. 13, calf sock 50 encloses the forefoot, toes and at leasta portion of the user's calf. As indicated in FIG. 13, calf sock 50 mayinclude full foot shock absorbing assembly 52 within a full foot cavityassembly. The cavity may be defined by an inner wall 15 and an outerwall 6, as shown in FIG. 14. The full foot shock absorbing assembly 52may include full foot sock shock absorbing material 51. The full footsock shock absorbing material 51 may include slip-avoidance grooves 9.

Calf sock 50 may further include calf cuff 26 on its distal end that isadapted to prevent slippage of the sock from the human foot, and fromwear's calf in particular. Calf cuff 26 may include a fastener tofurther secure calf sock 50 to a human foot, particularly duringathletic activity.

FIG. 15 shows one example of the calf sock 50, wherein stitching 7secures full foot sock shock absorbing material 51 within full footshock absorbing assembly 52. Further, as introduced in FIG. 16, calfsock 50 may include a wicking material layer 19 that is substantiallythe size of the wear's foot and/or an adhesive layer 18. Alternativelyan adhesive layer can be used, or a combination of adhesive, such asglue, and stitching. FIG. 16 also shows the full foot shock absorbingassembly 52 with wicking portion 19 separated from shock absorbingmaterial 51.

FIG. 17 illustrates a further embodiment of the sock: a legging sock 60.In this particular example, legging sock 60 encloses the forefoot, toesand at least a portion of the user's leg approaching a knee. Leggingsock 60 includes full foot shock absorbing assembly 62 within a fullfoot cavity assembly. The cavity may be defined by an inner wall and anouter wall, as described above. The full foot shock absorbing assembly62 may include full foot sock shock absorbing material 61. As previouslydescribed, the full foot sock shock absorbing material 61 may includeslip-avoidance grooves.

Although shown in the context of the full foot embodiments, the varioussock layers, including shock absorbing material, wicking materiallayers, inner and outer walls, cuffs, stitching and adhesive layer canbe usefully employed in the legging sock 60 embodiments.

In other embodiments, the disclosure includes a sock retrofit kit. Inthis embodiment, the kit may comprise a shock absorbing material, e.g.any of the shock absorbing materials previously shown or described.Further, the kit may include a plurality of cuffs, e.g. any of the cuffsshown or described. Most typically, each shock absorbing material mayreplace a worn-out, or the like, shock absorbing material, for examplewithin an existing cavity assembly, e.g. any of the cavity assembliespreviously shown or described.

In yet another embodiment of the disclosure, a method for absorbingfoot-strike shock includes donning a foot-strike absorbing sock, e.g.any of the socks previously shown or described, and compressing thesock. In parituclar embodiments, the method includes donning the sockduring athletic activities, for instance gymnastics, running, hockey,skating, or the like, or in other circumstances where foot strike shockis apparent or rehabilitation is advantageous.

Numerous characteristics and advantages have been set forth in theforegoing description, together with details of structure and function.Many of the novel features are pointed out in the appended claims. Thedisclosure, however, is illustrative only, and changes may be made indetail, especially in matters of shape, size, and arrangement of parts,within the principle of the disclosure, to the full extent indicated bythe broad general meaning of the terms in which the general claims areexpressed. It is further noted that, as used in this application, thesingular forms “a,” “an,” and “the” include plural referents unlessexpressly and unequivocally limited to one referent.

What is claimed is:
 1. In a sock having a heel portion, a mid-footportion and a shock absorbing assembly, said sock comprising: (a) acavity assembly; and (b) a shock absorbing material secured in saidcavity.
 2. The apparatus according to claim 1, wherein an inner wall andan outer wall define said cavity.
 3. The apparatus according to claim 2,wherein said inner wall and said outer wall are stitched together,whereby said stitching is an elastic stitching adapted to allowflexibility and movement of said inner wall and outer wall about oneanother.
 4. The apparatus according to claim 1, wherein said cavitywicks moisture away from a user's foot.
 5. The apparatus according toclaim 1, wherein said sock including at least one layer secured adjacentto said cavity chosen from a wicking layer, a protective layer and anadhesive layer.
 6. The apparatus according to claim 1, wherein saidcavity has sufficient memory to hold said cavity in place.
 7. Theapparatus according to claim 1, wherein said shock absorbing material isa gel.
 8. The apparatus according to claim 7, wherein said shockabsorbing material is a visco-elastic polymeric gel.
 9. The apparatusaccording to claim 8, wherein said shock absorbing material is adaptedto flow and absorb shock under a load.
 10. The apparatus according toclaim 9, wherein said shock absorbing material is adapted to mimic anelasticity of a human flesh.
 11. The apparatus according to claim 9,wherein said shock absorbing material absorbs greater than about 94percent of impact shock.
 12. The apparatus according to claim 1, whereinsaid shock absorbing assembly cushions a human foot from foot-strikeshock while said mid-foot portion allows tactility in said ball area andtoes.
 13. A shock-absorbing athletic sock comprising: (a) a heelportion; (b) a mid-foot portion; and (c) a shock absorbing assemblyincluding (i) a cavity assembly and (ii) a visco elastic polymeric shockabsorbing material adapted to absorb greater than about 94 percent ofimpact shock.